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If you think the world is flooded with a mind-boggling volume of digital content, then you might be just a amazed to learn about the sheer wealth of information and business opportunities that will be uncovered at this year’s SEMICON Japan as the event goes full digital.To start, more than 160 companies will exhibit their semiconductor manufacturing gear and services on the virtual show floor of Japan’s premier event for the semiconductor manufacturing and design supply chain. Add to that over 80 presentations and panels that feature global industry executives, visionaries and experts offering insights into the latest microelectronics developments, trends and technologies, and it’s easy to see how SEMICON Japan 2020 Virtual is designed to help attendees grow their businesses and the industry drive the next wave of innovations that promise to address some of the world’s greatest challenges across healthcare, the environment, transportation and other industries.Best of all, it will all be available at your convenience from your office or home 24 hours a day, making it safe and easy for you and others from all over the world to attend. Following is what’s in store at SEMICON Japan 2020 Virtual to help lead you into the future.Leading Japanese Securities Analysts to Weigh in What’s Ahead for the Chip Equipment Sector in 2021 For the first time, SEMICON Japan will feature Bulls Bears as Japan’s’ five top securities analysts focus on the 2021 outlook for the global semiconductor equipment sector. The December 17th event will include discussions on the COVID-19 pandemic’s impact on the semiconductor industry, the continuing geopolitical tensions that are forcing the industry to reconfigure its supply chains, the fast-growing China market and cutting-edge applications that are powering industry growth. The perspectives from Japan’s investment community are sure to be compelling as the region supplies one-third of the global semiconductor industry’s chip manufacturing equipment.Moderated by Akira Minamikawa of OMDIA, the panel will include these experts:Three Visionaries to Explore the Digital TransformationPowered by semiconductors, the fourth industrial revolution is driving digitalization globally, remaking societies to bring more efficiencies and conveniences to our work and home lives and help more people prosper. But the flip side of those tremendous benefits is the risk that wealth will be concentrated in the hands of people in positions of power, companies and nations. Democratizing economic development remains a serious challenge worldwide.Addressing this pressing issue, the Opening Panel on December 11 will feature prominent visionaries from political, academic and industrial communities including the following:Sony’s Leading-Edge Electric Car and Nissan’s Driver Assistance System to Highlight Automotive InnovationsCars are becoming more like smartphones on wheels, rapidly filling with more and more semiconductor chips every year with electrification and electronic driver-assisted systems to key drivers of this growth. At the SMART Mobility 1 session on December 14, two pioneering companies – Sony and Nissan Motor – will focus on both areas of semiconductor innovation.Sony’s Vision-S concept car, exhibited at CES 2020, astonished many in the electronics ecosystem and the automotive industry. What is Sony’s vision behind the vehicle? Izumi Kawanishi, Senior Vice President, AI Robotics Business at Sony will share the latest on the initiative.Nissan, maker of the pioneering LEAF electric vehicle, is the first Japanese carmaker to equip a car – its new Skyline – with the ProPILOT 2.0 driver assistance system for hands-off highway driving. Nissan Executive Vice President Asako Hoshino will provide an update on the company’s driver assistance system strategy and plans.Quantum Computing Meets Chip Manufacturing for the First Time at SEMICON Japan In contrast with current computer systems that use bits (binary 0 or 1 state) for computing, quantum computers leverage quantum superposition (0 and 1 states exist at once) to quickly solve highly complex problems that might take traditional supercomputers hundreds or even thousands of years to tease out. American physicist Richard Feynman promoted quantum computer as early as 1982, but it wasn’t until nearly two decades later and long after his death that quantum bit circuits emerged for use in superconductive materials.With quantum circuits and devices requiring state-of-art semiconductor processing technology, The Era of Quantum session on December 15 at SEMICON Japan 2020 Virtual will discuss necessary advances in chip manufacturing technology to enable the next generation quantum computing. The session will be the first time SEMICON Japan connects the semiconductor manufacturing and quantum computing communities.The program will feature the following experts:Strategies for Sustainable Semiconductor Industry GrowthSemiconductors are giving rise to a hyper-connected world that is fueling demand for staggering volumes of chips, pressuring the electronics industry to uncover new ways to increase manufacturing efficiency while reducing power consumption in a bid to help combat climate change. The Grand Finale Panel composed of executives from Japan’s semiconductor supply chain and a supervising ministry will gather for the Grand Finale Panel on December 18 to discuss ways the industry can achieve sustainable growth through innovation with a focus on energy savings and an new process technologies such as extreme ultraviolet lithography (EUV), which promises to enable electronics devices that are more power powerful, cheaper and more energy-efficient.Panelists include the following:Register TodayThe SEMICON Japan 2020 Virtual All-In Pass provides online access to all 80 presentations and panels, which will be available on-demand for replay until January 15, 2021. What’s more, all eight keynote programs will feature English subtitles. For complete information of the exposition, programs and registration, visit the SEMICON Japan website.I look forward to seeing you virtually at the event!Jim Hamajima is president of SEMI Japan.
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No, that wasn’t a fancy chandelier on the periphery of ES Design West’s exhibit area, the co-located event at SEMICON West. It was IBM’s Q quantum computer, a striking bit of industrial design that looks like a chandelier from a stately ballroom.While it resembled an ornate lighting fixture, IBM Q does much more than illuminate a room. The Q contains 20-quantum bits (20 qubits), equivalent to 2**20 or two to the 20th power classic bits. Impressively, IBM is currently readying (or may already have) a 50-qubit computer.During ES Design West, IBM demonstrated the Q Experience quantum cloud services platform and Qiskit, an open source quantum software framework. IBM’s booth staff showed how Q can solve problems beyond the practical reach of even today’s conventional supercomputers. Examples include the Traveling Salesman Problem (TSP) of finding the shortest route to enable the salesman to visit every city once and return to the starting point. Other examples are chemistry, drug and medicine discovery, weather and climate modeling, and security and advanced cryptography.The demos did even more, highlighting just how far semiconductor design and manufacturing advances have come to make quantum computing architecture possible.We have Dr. Jeffrey Welser, vice president of IBM Research–Almaden, to thank for bringing Q to SEMICON West and ES Design. During his keynote, The Future of Computing: Bits + Neurons + Qbits, he noted that Quantum computing holds the potential to solve problems even the most powerful classical computers cannot and challenges our community to drive innovation from materials to devices to systems. Both he and the booth staffers made the point out that Q will not replace conventional computing but augment it to solve complex problems beyond computational limits and/or the storage capacity of conventional computers.Challenges of Quantum Computing are not insignificant, however, and start with coherence time or the time interval over which the qbit is in a quantum state. The 20-qbit Q shown at ES Design West has a coherence time of 90 microseconds. Noise and variance are other challenges. The IBM booth staff said that a typical program must be run at least 1,000 times. Results are filtered with the extremes removed to get the most consistent result.Fault tolerance is high on the list of challenges as well because a solution for fault tolerance in quantum computing has yet to be discovered. Users like us take fault tolerance for granted in modern classical computers, addressed in hardware and firmware. Programmers don’t need to be concerned about it because the computer takes care of it through error correction.Finally, Q and most other quantum computers require near 0 Kelvin temperatures to operate. The refrigeration systems are large, expensive and not easily portable. Research is ongoing to find materials, such as carbon nanospheres, that will allow quantum computing at room temperature.Most experts agree that we are years away from practical deployment of large quantum computer systems. IBM’s open system for users around the world to access a Q computer to run programs is helping drive the way forward.Robert (Bob) Smith is Executive Director of the ESD Alliance, a SEMI Strategic Association Partner. He is responsible for the management and operations of the ESD Alliance, an international association of companies providing goods and services throughout the semiconductor design ecosystem.
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